130fdc8d8SChris Lattner //===-- StringExtractor.cpp -------------------------------------*- C++ -*-===// 230fdc8d8SChris Lattner // 330fdc8d8SChris Lattner // The LLVM Compiler Infrastructure 430fdc8d8SChris Lattner // 530fdc8d8SChris Lattner // This file is distributed under the University of Illinois Open Source 630fdc8d8SChris Lattner // License. See LICENSE.TXT for details. 730fdc8d8SChris Lattner // 830fdc8d8SChris Lattner //===----------------------------------------------------------------------===// 930fdc8d8SChris Lattner 10c982c768SGreg Clayton #include "Utility/StringExtractor.h" 1130fdc8d8SChris Lattner 1230fdc8d8SChris Lattner // C Includes 1378709173SStephen Wilson #include <stdlib.h> 1478709173SStephen Wilson 1530fdc8d8SChris Lattner // C++ Includes 1630fdc8d8SChris Lattner // Other libraries and framework includes 1730fdc8d8SChris Lattner // Project includes 1830fdc8d8SChris Lattner 1930fdc8d8SChris Lattner static inline int 2030fdc8d8SChris Lattner xdigit_to_sint (char ch) 2130fdc8d8SChris Lattner { 2230fdc8d8SChris Lattner if (ch >= 'a' && ch <= 'f') 2330fdc8d8SChris Lattner return 10 + ch - 'a'; 241e89cd80SBenjamin Kramer if (ch >= 'A' && ch <= 'F') 251e89cd80SBenjamin Kramer return 10 + ch - 'A'; 266eddf8dfSVince Harron if (ch >= '0' && ch <= '9') 2730fdc8d8SChris Lattner return ch - '0'; 286eddf8dfSVince Harron return -1; 2930fdc8d8SChris Lattner } 3030fdc8d8SChris Lattner 3130fdc8d8SChris Lattner //---------------------------------------------------------------------- 3230fdc8d8SChris Lattner // StringExtractor constructor 3330fdc8d8SChris Lattner //---------------------------------------------------------------------- 3430fdc8d8SChris Lattner StringExtractor::StringExtractor() : 3530fdc8d8SChris Lattner m_packet(), 3630fdc8d8SChris Lattner m_index (0) 3730fdc8d8SChris Lattner { 3830fdc8d8SChris Lattner } 3930fdc8d8SChris Lattner 4030fdc8d8SChris Lattner 4130fdc8d8SChris Lattner StringExtractor::StringExtractor(const char *packet_cstr) : 4230fdc8d8SChris Lattner m_packet(), 4330fdc8d8SChris Lattner m_index (0) 4430fdc8d8SChris Lattner { 4530fdc8d8SChris Lattner if (packet_cstr) 4630fdc8d8SChris Lattner m_packet.assign (packet_cstr); 4730fdc8d8SChris Lattner } 4830fdc8d8SChris Lattner 4930fdc8d8SChris Lattner 5030fdc8d8SChris Lattner //---------------------------------------------------------------------- 5130fdc8d8SChris Lattner // StringExtractor copy constructor 5230fdc8d8SChris Lattner //---------------------------------------------------------------------- 5330fdc8d8SChris Lattner StringExtractor::StringExtractor(const StringExtractor& rhs) : 5430fdc8d8SChris Lattner m_packet (rhs.m_packet), 5530fdc8d8SChris Lattner m_index (rhs.m_index) 5630fdc8d8SChris Lattner { 5730fdc8d8SChris Lattner 5830fdc8d8SChris Lattner } 5930fdc8d8SChris Lattner 6030fdc8d8SChris Lattner //---------------------------------------------------------------------- 6130fdc8d8SChris Lattner // StringExtractor assignment operator 6230fdc8d8SChris Lattner //---------------------------------------------------------------------- 6330fdc8d8SChris Lattner const StringExtractor& 6430fdc8d8SChris Lattner StringExtractor::operator=(const StringExtractor& rhs) 6530fdc8d8SChris Lattner { 6630fdc8d8SChris Lattner if (this != &rhs) 6730fdc8d8SChris Lattner { 6830fdc8d8SChris Lattner m_packet = rhs.m_packet; 6930fdc8d8SChris Lattner m_index = rhs.m_index; 7030fdc8d8SChris Lattner 7130fdc8d8SChris Lattner } 7230fdc8d8SChris Lattner return *this; 7330fdc8d8SChris Lattner } 7430fdc8d8SChris Lattner 7530fdc8d8SChris Lattner //---------------------------------------------------------------------- 7630fdc8d8SChris Lattner // Destructor 7730fdc8d8SChris Lattner //---------------------------------------------------------------------- 7830fdc8d8SChris Lattner StringExtractor::~StringExtractor() 7930fdc8d8SChris Lattner { 8030fdc8d8SChris Lattner } 8130fdc8d8SChris Lattner 8230fdc8d8SChris Lattner 8330fdc8d8SChris Lattner char 8430fdc8d8SChris Lattner StringExtractor::GetChar (char fail_value) 8530fdc8d8SChris Lattner { 8630fdc8d8SChris Lattner if (m_index < m_packet.size()) 8730fdc8d8SChris Lattner { 8830fdc8d8SChris Lattner char ch = m_packet[m_index]; 8930fdc8d8SChris Lattner ++m_index; 9030fdc8d8SChris Lattner return ch; 9130fdc8d8SChris Lattner } 92c7bece56SGreg Clayton m_index = UINT64_MAX; 9330fdc8d8SChris Lattner return fail_value; 9430fdc8d8SChris Lattner } 9530fdc8d8SChris Lattner 9630fdc8d8SChris Lattner //---------------------------------------------------------------------- 976eddf8dfSVince Harron // If a pair of valid hex digits exist at the head of the 986eddf8dfSVince Harron // StringExtractor they are decoded into an unsigned byte and returned 996eddf8dfSVince Harron // by this function 1006eddf8dfSVince Harron // 1016eddf8dfSVince Harron // If there is not a pair of valid hex digits at the head of the 1026eddf8dfSVince Harron // StringExtractor, it is left unchanged and -1 is returned 1036eddf8dfSVince Harron //---------------------------------------------------------------------- 1046eddf8dfSVince Harron int 1056eddf8dfSVince Harron StringExtractor::DecodeHexU8() 1066eddf8dfSVince Harron { 1076eddf8dfSVince Harron if (GetBytesLeft() < 2) 1086eddf8dfSVince Harron { 1096eddf8dfSVince Harron return -1; 1106eddf8dfSVince Harron } 1116eddf8dfSVince Harron const int hi_nibble = xdigit_to_sint(m_packet[m_index]); 1126eddf8dfSVince Harron const int lo_nibble = xdigit_to_sint(m_packet[m_index+1]); 1136eddf8dfSVince Harron if (hi_nibble == -1 || lo_nibble == -1) 1146eddf8dfSVince Harron { 1156eddf8dfSVince Harron return -1; 1166eddf8dfSVince Harron } 1176eddf8dfSVince Harron m_index += 2; 1186eddf8dfSVince Harron return (uint8_t)((hi_nibble << 4) + lo_nibble); 1196eddf8dfSVince Harron } 1206eddf8dfSVince Harron 1216eddf8dfSVince Harron //---------------------------------------------------------------------- 12230fdc8d8SChris Lattner // Extract an unsigned character from two hex ASCII chars in the packet 12330fdc8d8SChris Lattner // string 12430fdc8d8SChris Lattner //---------------------------------------------------------------------- 12530fdc8d8SChris Lattner uint8_t 1267b70be39SGreg Clayton StringExtractor::GetHexU8 (uint8_t fail_value, bool set_eof_on_fail) 12730fdc8d8SChris Lattner { 1286eddf8dfSVince Harron int byte = DecodeHexU8(); 1296eddf8dfSVince Harron if (byte == -1) 13030fdc8d8SChris Lattner { 1317b70be39SGreg Clayton if (set_eof_on_fail || m_index >= m_packet.size()) 132c7bece56SGreg Clayton m_index = UINT64_MAX; 13330fdc8d8SChris Lattner return fail_value; 13430fdc8d8SChris Lattner } 1356eddf8dfSVince Harron return (uint8_t)byte; 1366eddf8dfSVince Harron } 13730fdc8d8SChris Lattner 13830fdc8d8SChris Lattner uint32_t 13932e0a750SGreg Clayton StringExtractor::GetU32 (uint32_t fail_value, int base) 14032e0a750SGreg Clayton { 14132e0a750SGreg Clayton if (m_index < m_packet.size()) 14232e0a750SGreg Clayton { 143d4612ad0SEd Maste char *end = nullptr; 14432e0a750SGreg Clayton const char *start = m_packet.c_str(); 145e0f8f574SDaniel Malea const char *cstr = start + m_index; 146*f2d44ca8SEnrico Granata uint32_t result = static_cast<uint32_t>(::strtoul (cstr, &end, base)); 14732e0a750SGreg Clayton 148e0f8f574SDaniel Malea if (end && end != cstr) 149e0f8f574SDaniel Malea { 150e0f8f574SDaniel Malea m_index = end - start; 151e0f8f574SDaniel Malea return result; 152e0f8f574SDaniel Malea } 153e0f8f574SDaniel Malea } 154e0f8f574SDaniel Malea return fail_value; 155e0f8f574SDaniel Malea } 156e0f8f574SDaniel Malea 157e0f8f574SDaniel Malea int32_t 158e0f8f574SDaniel Malea StringExtractor::GetS32 (int32_t fail_value, int base) 159e0f8f574SDaniel Malea { 160e0f8f574SDaniel Malea if (m_index < m_packet.size()) 161e0f8f574SDaniel Malea { 162d4612ad0SEd Maste char *end = nullptr; 163e0f8f574SDaniel Malea const char *start = m_packet.c_str(); 164e0f8f574SDaniel Malea const char *cstr = start + m_index; 165*f2d44ca8SEnrico Granata int32_t result = static_cast<int32_t>(::strtol (cstr, &end, base)); 166e0f8f574SDaniel Malea 167e0f8f574SDaniel Malea if (end && end != cstr) 168e0f8f574SDaniel Malea { 169e0f8f574SDaniel Malea m_index = end - start; 170e0f8f574SDaniel Malea return result; 171e0f8f574SDaniel Malea } 172e0f8f574SDaniel Malea } 173e0f8f574SDaniel Malea return fail_value; 174e0f8f574SDaniel Malea } 175e0f8f574SDaniel Malea 176e0f8f574SDaniel Malea 177e0f8f574SDaniel Malea uint64_t 178e0f8f574SDaniel Malea StringExtractor::GetU64 (uint64_t fail_value, int base) 179e0f8f574SDaniel Malea { 180e0f8f574SDaniel Malea if (m_index < m_packet.size()) 181e0f8f574SDaniel Malea { 182d4612ad0SEd Maste char *end = nullptr; 183e0f8f574SDaniel Malea const char *start = m_packet.c_str(); 184e0f8f574SDaniel Malea const char *cstr = start + m_index; 185e0f8f574SDaniel Malea uint64_t result = ::strtoull (cstr, &end, base); 186e0f8f574SDaniel Malea 187e0f8f574SDaniel Malea if (end && end != cstr) 188e0f8f574SDaniel Malea { 189e0f8f574SDaniel Malea m_index = end - start; 190e0f8f574SDaniel Malea return result; 191e0f8f574SDaniel Malea } 192e0f8f574SDaniel Malea } 193e0f8f574SDaniel Malea return fail_value; 194e0f8f574SDaniel Malea } 195e0f8f574SDaniel Malea 196e0f8f574SDaniel Malea int64_t 197e0f8f574SDaniel Malea StringExtractor::GetS64 (int64_t fail_value, int base) 198e0f8f574SDaniel Malea { 199e0f8f574SDaniel Malea if (m_index < m_packet.size()) 200e0f8f574SDaniel Malea { 201d4612ad0SEd Maste char *end = nullptr; 202e0f8f574SDaniel Malea const char *start = m_packet.c_str(); 203e0f8f574SDaniel Malea const char *cstr = start + m_index; 204e0f8f574SDaniel Malea int64_t result = ::strtoll (cstr, &end, base); 205e0f8f574SDaniel Malea 206e0f8f574SDaniel Malea if (end && end != cstr) 20732e0a750SGreg Clayton { 20832e0a750SGreg Clayton m_index = end - start; 20932e0a750SGreg Clayton return result; 21032e0a750SGreg Clayton } 21132e0a750SGreg Clayton } 21232e0a750SGreg Clayton return fail_value; 21332e0a750SGreg Clayton } 21432e0a750SGreg Clayton 21532e0a750SGreg Clayton 21632e0a750SGreg Clayton uint32_t 21730fdc8d8SChris Lattner StringExtractor::GetHexMaxU32 (bool little_endian, uint32_t fail_value) 21830fdc8d8SChris Lattner { 21930fdc8d8SChris Lattner uint32_t result = 0; 22030fdc8d8SChris Lattner uint32_t nibble_count = 0; 22130fdc8d8SChris Lattner 22230fdc8d8SChris Lattner if (little_endian) 22330fdc8d8SChris Lattner { 22430fdc8d8SChris Lattner uint32_t shift_amount = 0; 22530fdc8d8SChris Lattner while (m_index < m_packet.size() && ::isxdigit (m_packet[m_index])) 22630fdc8d8SChris Lattner { 22730fdc8d8SChris Lattner // Make sure we don't exceed the size of a uint32_t... 22830fdc8d8SChris Lattner if (nibble_count >= (sizeof(uint32_t) * 2)) 22930fdc8d8SChris Lattner { 230c7bece56SGreg Clayton m_index = UINT64_MAX; 23130fdc8d8SChris Lattner return fail_value; 23230fdc8d8SChris Lattner } 23330fdc8d8SChris Lattner 23430fdc8d8SChris Lattner uint8_t nibble_lo; 23530fdc8d8SChris Lattner uint8_t nibble_hi = xdigit_to_sint (m_packet[m_index]); 23630fdc8d8SChris Lattner ++m_index; 23730fdc8d8SChris Lattner if (m_index < m_packet.size() && ::isxdigit (m_packet[m_index])) 23830fdc8d8SChris Lattner { 23930fdc8d8SChris Lattner nibble_lo = xdigit_to_sint (m_packet[m_index]); 24030fdc8d8SChris Lattner ++m_index; 24130fdc8d8SChris Lattner result |= ((uint32_t)nibble_hi << (shift_amount + 4)); 24230fdc8d8SChris Lattner result |= ((uint32_t)nibble_lo << shift_amount); 24330fdc8d8SChris Lattner nibble_count += 2; 24430fdc8d8SChris Lattner shift_amount += 8; 24530fdc8d8SChris Lattner } 24630fdc8d8SChris Lattner else 24730fdc8d8SChris Lattner { 24830fdc8d8SChris Lattner result |= ((uint32_t)nibble_hi << shift_amount); 24930fdc8d8SChris Lattner nibble_count += 1; 25030fdc8d8SChris Lattner shift_amount += 4; 25130fdc8d8SChris Lattner } 25230fdc8d8SChris Lattner 25330fdc8d8SChris Lattner } 25430fdc8d8SChris Lattner } 25530fdc8d8SChris Lattner else 25630fdc8d8SChris Lattner { 25730fdc8d8SChris Lattner while (m_index < m_packet.size() && ::isxdigit (m_packet[m_index])) 25830fdc8d8SChris Lattner { 25930fdc8d8SChris Lattner // Make sure we don't exceed the size of a uint32_t... 26030fdc8d8SChris Lattner if (nibble_count >= (sizeof(uint32_t) * 2)) 26130fdc8d8SChris Lattner { 262c7bece56SGreg Clayton m_index = UINT64_MAX; 26330fdc8d8SChris Lattner return fail_value; 26430fdc8d8SChris Lattner } 26530fdc8d8SChris Lattner 26630fdc8d8SChris Lattner uint8_t nibble = xdigit_to_sint (m_packet[m_index]); 26730fdc8d8SChris Lattner // Big Endian 26830fdc8d8SChris Lattner result <<= 4; 26930fdc8d8SChris Lattner result |= nibble; 27030fdc8d8SChris Lattner 27130fdc8d8SChris Lattner ++m_index; 27230fdc8d8SChris Lattner ++nibble_count; 27330fdc8d8SChris Lattner } 27430fdc8d8SChris Lattner } 27530fdc8d8SChris Lattner return result; 27630fdc8d8SChris Lattner } 27730fdc8d8SChris Lattner 27830fdc8d8SChris Lattner uint64_t 27930fdc8d8SChris Lattner StringExtractor::GetHexMaxU64 (bool little_endian, uint64_t fail_value) 28030fdc8d8SChris Lattner { 28130fdc8d8SChris Lattner uint64_t result = 0; 28230fdc8d8SChris Lattner uint32_t nibble_count = 0; 28330fdc8d8SChris Lattner 28430fdc8d8SChris Lattner if (little_endian) 28530fdc8d8SChris Lattner { 28630fdc8d8SChris Lattner uint32_t shift_amount = 0; 28730fdc8d8SChris Lattner while (m_index < m_packet.size() && ::isxdigit (m_packet[m_index])) 28830fdc8d8SChris Lattner { 28930fdc8d8SChris Lattner // Make sure we don't exceed the size of a uint64_t... 29030fdc8d8SChris Lattner if (nibble_count >= (sizeof(uint64_t) * 2)) 29130fdc8d8SChris Lattner { 292c7bece56SGreg Clayton m_index = UINT64_MAX; 29330fdc8d8SChris Lattner return fail_value; 29430fdc8d8SChris Lattner } 29530fdc8d8SChris Lattner 29630fdc8d8SChris Lattner uint8_t nibble_lo; 29730fdc8d8SChris Lattner uint8_t nibble_hi = xdigit_to_sint (m_packet[m_index]); 29830fdc8d8SChris Lattner ++m_index; 29930fdc8d8SChris Lattner if (m_index < m_packet.size() && ::isxdigit (m_packet[m_index])) 30030fdc8d8SChris Lattner { 30130fdc8d8SChris Lattner nibble_lo = xdigit_to_sint (m_packet[m_index]); 30230fdc8d8SChris Lattner ++m_index; 30330fdc8d8SChris Lattner result |= ((uint64_t)nibble_hi << (shift_amount + 4)); 30430fdc8d8SChris Lattner result |= ((uint64_t)nibble_lo << shift_amount); 30530fdc8d8SChris Lattner nibble_count += 2; 30630fdc8d8SChris Lattner shift_amount += 8; 30730fdc8d8SChris Lattner } 30830fdc8d8SChris Lattner else 30930fdc8d8SChris Lattner { 31030fdc8d8SChris Lattner result |= ((uint64_t)nibble_hi << shift_amount); 31130fdc8d8SChris Lattner nibble_count += 1; 31230fdc8d8SChris Lattner shift_amount += 4; 31330fdc8d8SChris Lattner } 31430fdc8d8SChris Lattner 31530fdc8d8SChris Lattner } 31630fdc8d8SChris Lattner } 31730fdc8d8SChris Lattner else 31830fdc8d8SChris Lattner { 31930fdc8d8SChris Lattner while (m_index < m_packet.size() && ::isxdigit (m_packet[m_index])) 32030fdc8d8SChris Lattner { 32130fdc8d8SChris Lattner // Make sure we don't exceed the size of a uint64_t... 32230fdc8d8SChris Lattner if (nibble_count >= (sizeof(uint64_t) * 2)) 32330fdc8d8SChris Lattner { 324c7bece56SGreg Clayton m_index = UINT64_MAX; 32530fdc8d8SChris Lattner return fail_value; 32630fdc8d8SChris Lattner } 32730fdc8d8SChris Lattner 32830fdc8d8SChris Lattner uint8_t nibble = xdigit_to_sint (m_packet[m_index]); 32930fdc8d8SChris Lattner // Big Endian 33030fdc8d8SChris Lattner result <<= 4; 33130fdc8d8SChris Lattner result |= nibble; 33230fdc8d8SChris Lattner 33330fdc8d8SChris Lattner ++m_index; 33430fdc8d8SChris Lattner ++nibble_count; 33530fdc8d8SChris Lattner } 33630fdc8d8SChris Lattner } 33730fdc8d8SChris Lattner return result; 33830fdc8d8SChris Lattner } 33930fdc8d8SChris Lattner 34030fdc8d8SChris Lattner size_t 34130fdc8d8SChris Lattner StringExtractor::GetHexBytes (void *dst_void, size_t dst_len, uint8_t fail_fill_value) 34230fdc8d8SChris Lattner { 34330fdc8d8SChris Lattner uint8_t *dst = (uint8_t*)dst_void; 34430fdc8d8SChris Lattner size_t bytes_extracted = 0; 34530fdc8d8SChris Lattner while (bytes_extracted < dst_len && GetBytesLeft ()) 34630fdc8d8SChris Lattner { 34730fdc8d8SChris Lattner dst[bytes_extracted] = GetHexU8 (fail_fill_value); 34830fdc8d8SChris Lattner if (IsGood()) 34930fdc8d8SChris Lattner ++bytes_extracted; 35030fdc8d8SChris Lattner else 35130fdc8d8SChris Lattner break; 35230fdc8d8SChris Lattner } 35330fdc8d8SChris Lattner 35430fdc8d8SChris Lattner for (size_t i = bytes_extracted; i < dst_len; ++i) 35530fdc8d8SChris Lattner dst[i] = fail_fill_value; 35630fdc8d8SChris Lattner 35730fdc8d8SChris Lattner return bytes_extracted; 35830fdc8d8SChris Lattner } 35930fdc8d8SChris Lattner 3606eddf8dfSVince Harron //---------------------------------------------------------------------- 3616eddf8dfSVince Harron // Decodes all valid hex encoded bytes at the head of the 3626eddf8dfSVince Harron // StringExtractor, limited by dst_len. 3636eddf8dfSVince Harron // 3646eddf8dfSVince Harron // Returns the number of bytes successfully decoded 3656eddf8dfSVince Harron //---------------------------------------------------------------------- 3666eddf8dfSVince Harron size_t 3676eddf8dfSVince Harron StringExtractor::GetHexBytesAvail (void *dst_void, size_t dst_len) 3686eddf8dfSVince Harron { 3696eddf8dfSVince Harron uint8_t *dst = (uint8_t*)dst_void; 3706eddf8dfSVince Harron size_t bytes_extracted = 0; 3716eddf8dfSVince Harron while (bytes_extracted < dst_len) 3726eddf8dfSVince Harron { 3736eddf8dfSVince Harron int decode = DecodeHexU8(); 3746eddf8dfSVince Harron if (decode == -1) 3756eddf8dfSVince Harron { 3766eddf8dfSVince Harron break; 3776eddf8dfSVince Harron } 3786eddf8dfSVince Harron dst[bytes_extracted++] = (uint8_t)decode; 3796eddf8dfSVince Harron } 3806eddf8dfSVince Harron return bytes_extracted; 3816eddf8dfSVince Harron } 38230fdc8d8SChris Lattner 38330fdc8d8SChris Lattner // Consume ASCII hex nibble character pairs until we have decoded byte_size 38430fdc8d8SChris Lattner // bytes of data. 38530fdc8d8SChris Lattner 38630fdc8d8SChris Lattner uint64_t 38730fdc8d8SChris Lattner StringExtractor::GetHexWithFixedSize (uint32_t byte_size, bool little_endian, uint64_t fail_value) 38830fdc8d8SChris Lattner { 38930fdc8d8SChris Lattner if (byte_size <= 8 && GetBytesLeft() >= byte_size * 2) 39030fdc8d8SChris Lattner { 39130fdc8d8SChris Lattner uint64_t result = 0; 39230fdc8d8SChris Lattner uint32_t i; 39330fdc8d8SChris Lattner if (little_endian) 39430fdc8d8SChris Lattner { 39530fdc8d8SChris Lattner // Little Endian 39630fdc8d8SChris Lattner uint32_t shift_amount; 39730fdc8d8SChris Lattner for (i = 0, shift_amount = 0; 398c7bece56SGreg Clayton i < byte_size && IsGood(); 39930fdc8d8SChris Lattner ++i, shift_amount += 8) 40030fdc8d8SChris Lattner { 40130fdc8d8SChris Lattner result |= ((uint64_t)GetHexU8() << shift_amount); 40230fdc8d8SChris Lattner } 40330fdc8d8SChris Lattner } 40430fdc8d8SChris Lattner else 40530fdc8d8SChris Lattner { 40630fdc8d8SChris Lattner // Big Endian 407c7bece56SGreg Clayton for (i = 0; i < byte_size && IsGood(); ++i) 40830fdc8d8SChris Lattner { 40930fdc8d8SChris Lattner result <<= 8; 41030fdc8d8SChris Lattner result |= GetHexU8(); 41130fdc8d8SChris Lattner } 41230fdc8d8SChris Lattner } 41330fdc8d8SChris Lattner } 414c7bece56SGreg Clayton m_index = UINT64_MAX; 41530fdc8d8SChris Lattner return fail_value; 41630fdc8d8SChris Lattner } 41730fdc8d8SChris Lattner 418de9d0494SGreg Clayton size_t 419de9d0494SGreg Clayton StringExtractor::GetHexByteString (std::string &str) 420de9d0494SGreg Clayton { 421de9d0494SGreg Clayton str.clear(); 422de9d0494SGreg Clayton char ch; 423de9d0494SGreg Clayton while ((ch = GetHexU8()) != '\0') 424de9d0494SGreg Clayton str.append(1, ch); 425de9d0494SGreg Clayton return str.size(); 426de9d0494SGreg Clayton } 427de9d0494SGreg Clayton 428e0f8f574SDaniel Malea size_t 429af245d11STodd Fiala StringExtractor::GetHexByteStringFixedLength (std::string &str, uint32_t nibble_length) 430af245d11STodd Fiala { 431af245d11STodd Fiala str.clear(); 432af245d11STodd Fiala 433af245d11STodd Fiala uint32_t nibble_count = 0; 434af245d11STodd Fiala for (const char *pch = Peek(); (nibble_count < nibble_length) && (pch != nullptr); str.append(1, GetHexU8(0, false)), pch = Peek (), nibble_count += 2) 435af245d11STodd Fiala {} 436af245d11STodd Fiala 437af245d11STodd Fiala return str.size(); 438af245d11STodd Fiala } 439af245d11STodd Fiala 440af245d11STodd Fiala size_t 441e0f8f574SDaniel Malea StringExtractor::GetHexByteStringTerminatedBy (std::string &str, 442e0f8f574SDaniel Malea char terminator) 443e0f8f574SDaniel Malea { 444e0f8f574SDaniel Malea str.clear(); 445e0f8f574SDaniel Malea char ch; 446e0f8f574SDaniel Malea while ((ch = GetHexU8(0,false)) != '\0') 447e0f8f574SDaniel Malea str.append(1, ch); 448e0f8f574SDaniel Malea if (Peek() && *Peek() == terminator) 449e0f8f574SDaniel Malea return str.size(); 450af245d11STodd Fiala 451e0f8f574SDaniel Malea str.clear(); 452e0f8f574SDaniel Malea return str.size(); 453e0f8f574SDaniel Malea } 454e0f8f574SDaniel Malea 45530fdc8d8SChris Lattner bool 45630fdc8d8SChris Lattner StringExtractor::GetNameColonValue (std::string &name, std::string &value) 45730fdc8d8SChris Lattner { 45830fdc8d8SChris Lattner // Read something in the form of NNNN:VVVV; where NNNN is any character 45930fdc8d8SChris Lattner // that is not a colon, followed by a ':' character, then a value (one or 46030fdc8d8SChris Lattner // more ';' chars), followed by a ';' 46130fdc8d8SChris Lattner if (m_index < m_packet.size()) 46230fdc8d8SChris Lattner { 46330fdc8d8SChris Lattner const size_t colon_idx = m_packet.find (':', m_index); 46430fdc8d8SChris Lattner if (colon_idx != std::string::npos) 46530fdc8d8SChris Lattner { 46630fdc8d8SChris Lattner const size_t semicolon_idx = m_packet.find (';', colon_idx); 46730fdc8d8SChris Lattner if (semicolon_idx != std::string::npos) 46830fdc8d8SChris Lattner { 46930fdc8d8SChris Lattner name.assign (m_packet, m_index, colon_idx - m_index); 47030fdc8d8SChris Lattner value.assign (m_packet, colon_idx + 1, semicolon_idx - (colon_idx + 1)); 47130fdc8d8SChris Lattner m_index = semicolon_idx + 1; 47230fdc8d8SChris Lattner return true; 47330fdc8d8SChris Lattner } 47430fdc8d8SChris Lattner } 47530fdc8d8SChris Lattner } 476c7bece56SGreg Clayton m_index = UINT64_MAX; 47730fdc8d8SChris Lattner return false; 47830fdc8d8SChris Lattner } 479